CN216549013U - Braided cable wicking machine - Google Patents

Abstract

The utility model discloses a braided cable wicking machine, which comprises an unreeling device and a reeling mechanism, wherein the unreeling device is arranged on the reeling mechanism; the first unwinding group comprises a first unwinding wheel, a first transmission wheel and a first tension balance wheel, a first transmission annular groove and a second transmission annular groove are formed in the first transmission wheel, the second unwinding group comprises a second unwinding wheel, a second transmission wheel, a second tension balance wheel and a first adjusting wheel, a third transmission annular groove and a fourth transmission annular groove are formed in the second transmission wheel, a cable on the second unwinding wheel passes through the third transmission annular groove, the first winding group comprises a third transmission wheel, a first winding wheel, a third tension balance wheel and a second adjusting wheel, a first transmission groove and a second transmission groove are formed in the third transmission wheel, a fourth transmission wheel, a second winding wheel and a fourth tension balance wheel are formed in the second winding group, a third transmission groove and a fourth transmission groove are formed in the fourth transmission wheel, and one set of two-strand cable winding equipment can be achieved through the scheme.

Description

Braided cable wicking machine

Technical Field

The utility model relates to cable production equipment, in particular to a braided cable wicking machine.

Background

In the process of cable production, a process of tin dipping is often provided, and a welding agent is attached before tin dipping, so that a tin dipping machine is provided, but in the tin dipping machine in the prior art, one set of equipment can only be used for tin dipping processing of one cable, and if two sets of equipment are needed for tin dipping of two cables, two sets of equipment are needed.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model aims to provide a tin dipping machine capable of processing two strands of braided cables simultaneously.

In order to achieve the purpose, the utility model provides the following technical scheme:

a braided cable wicking machine comprises an unreeling device, a solder coating mechanism, a wicking mechanism, a traction mechanism and a reeling mechanism;

unwinding mechanism: comprises a unreeling frame, a first unreeling group and a second unreeling group;

the first unwinding group comprises a first unwinding wheel, a first driving wheel and a first tension balance wheel, wherein the first unwinding wheel, the first driving wheel and the first tension balance wheel are all rotatably connected to the unwinding support, a first driving annular groove and a second driving annular groove are formed in the first driving wheel, the first tension balance wheel is arranged below the first driving wheel, a cable on the first unwinding wheel firstly passes through the first driving annular groove and then bypasses the first tension balance wheel, and then is wound out of the second driving annular groove;

the second unwinding group comprises a second unwinding wheel, a second driving wheel, a second tension balance wheel and a first adjusting wheel which are all rotatably connected to the room support, a third driving annular groove and a fourth driving annular groove are formed in the second driving wheel, the second tension balance wheel is located below the second driving wheel, a cable on the second unwinding wheel passes through the third driving annular groove, bypasses the second tension balance wheel and then is wound out of the fourth driving annular groove, the cable wound out of the second driving annular groove is wound out of the first adjusting wheel, and the first adjusting wheel and the second driving wheel are arranged concentrically;

the cable wound out by the unwinding device enters the winding mechanism through the flux coating mechanism, the tin dipping mechanism and the traction mechanism;

the winding mechanism comprises a winding support, a first winding group and a second winding group, and the second winding group is arranged in front of the first winding group towards the winding direction;

the first winding set comprises a third driving wheel, a first winding wheel, a third tension balance wheel and a second adjusting wheel which are all rotationally connected to the winding support, the third tension balance wheel is arranged below the third driving wheel, a first transmission groove and a second transmission groove are formed in the third driving wheel, one strand of cable which is wound out of the traction mechanism winds in from the first rotating groove, then winds in from the third tension balance wheel, then winds in to the second transmission groove, and winds out from the second transmission groove to enter the first winding wheel;

the second winding group comprises a fourth driving wheel, a second winding wheel and a fourth tension balance wheel which are all rotationally connected to the winding support, the fourth tension balance wheel is located below the fourth driving wheel, a third transmission guide groove and a fourth transmission guide groove are formed in the fourth driving wheel, the other cable wound out of the traction mechanism winds in from the third transmission guide groove, then winds around the fourth tension balance wheel, then winds into the fourth transmission guide groove, and is charged into the fourth transmission mechanism to wind out and enter the second winding wheel.

As a further improvement of the present invention,

the flux coating mechanism comprises a supporting seat, a dipping agent groove, two pressing wheels, two first guide wheels and two second guide wheels, wherein the dipping agent groove is positioned on the supporting seat, the lower part of the pressing wheel is positioned in the dipping agent groove, the first guide wheels and the second guide wheels are rotatably connected onto the supporting seat, the first guide wheels and the second guide wheels are respectively positioned on the front side and the rear side of the pressing wheel, a cable wound out of the fourth annular transmission groove and a cable wound out of the first adjusting wheel are respectively wound out of the upper part of one of the first guide wheels, and then are respectively wound out of the lower part of one of the pressing wheels and then are respectively wound out of the upper part of one of the second guide wheels.

As a further improvement of the present invention,

the tin immersion mechanism comprises a tin immersion frame, a tin immersion pot, two first adjusting wheels, two tin immersion wheels and two second adjusting wheels, wherein the tin immersion pot is positioned on the tin immersion frame, the first adjusting wheels and the second adjusting wheels are rotatably connected to the tin immersion frame and are respectively positioned on the front side and the rear side of the tin immersion pot, the tin immersion wheels are rotatably connected to the tin immersion pot, two cables wound out of the second guide wheels are respectively wound out of the upper portion of one of the first adjusting wheels, and the cables are respectively wound out of the lower portion of one of the second adjusting wheels and are then respectively wound out of the upper portion of one of the second adjusting wheels.

As a further improvement of the present invention,

the traction mechanism comprises a traction frame, two traction wheels and two winding wheels, wherein the traction wheels and the winding wheels are rotatably connected to the traction frame, the winding wheels are respectively arranged below one of the traction wheels, a first traction groove and a second traction groove are formed in the traction wheels, two cables wound out of the second adjusting wheel are respectively wound in from the upper part of one of the traction grooves and then respectively wound around one of the winding wheels, and then the second traction grooves in the traction wheels wound in front are respectively wound in and wound out of the second traction grooves.

As a further improvement of the present invention,

the first winding group also comprises a first arranging wheel, the first arranging wheel is arranged between the third driving wheel and the first winding wheel, and the cable wound out of the second driving groove passes through the first arranging wheel and then is wound to the first winding wheel;

the second winding group further comprises a second arranging wheel, the second arranging wheel is arranged between the fourth driving wheel and the second winding wheel, and the cable wound out of the fourth driving groove passes through the second arranging wheel and then is wound to the second winding wheel.

As a further improvement of the present invention,

the unreeling support comprises two first sliding blocks and two first sliding strips, the first sliding blocks are connected to the first sliding strips in a sliding mode, first rotating columns are arranged on the first sliding blocks, the first tension balance wheel is connected to one of the first rotating columns in a rotating mode, and the second tension balance wheel is connected to the second rotating column in a rotating mode;

the winding support comprises two second sliding blocks and two second sliding strips, the second sliding blocks are connected to the second sliding strips in a sliding mode, a second rotating column is arranged on the second sliding strips, the third tension balance wheel is connected to the second rotating column in a rotating mode, and the fourth tension balance wheel is connected to the other second rotating column in a rotating mode.

As a further improvement of the present invention,

the cross sections of the first sliding strip and the second sliding strip are trapezoidal, and sliding grooves with trapezoidal cross sections are formed in the first sliding block and the second sliding block.

As a further improvement of the present invention,

the infusion tank uses the pinch roller as the center, and both sides are provided with the inclined plane, the lowest of first regulating wheel and second regulating wheel is located the top in infusion tank.

The utility model has the advantages that in the unreeling mechanism, the first tension balance wheel and the second tension balance wheel can be arranged in the unreeling process, cables are simultaneously wound on the first driving wheel, the first tension balance wheel, the second driving wheel and the second tension balance wheel, the wound cables can be tensioned, and the cables of the first unreeling group and the second unreeling group can be unreeled in parallel through the suitability of the first adjusting wheel, so that two sets of cables can be unreeled simultaneously by one set of equipment.

In the winding mechanism, the third transmission wheel and the third tension balance wheel are matched with each other, the fourth transmission wheel and the fourth tension balance wheel are matched with each other, so that the cables can be tensioned in the winding process, the winding process is more compact, one cable can be directly led into the other first winding group through the arrangement of the second adjusting wheel, and the synchronous winding of two parallel cables can be realized.

Drawings

FIG. 1 is a schematic plan view of the overall structure of an embodiment of the present invention;

FIG. 2 is a perspective view of the overall structure of the embodiment of the present invention;

fig. 3 is a schematic structural diagram of an unwinding device according to an embodiment of the present invention;

FIG. 4 is a schematic structural diagram of a coating mechanism of the welder in accordance with the embodiment of the utility model;

FIG. 5 is a schematic structural diagram of a wicking mechanism according to an embodiment of the utility model;

FIG. 6 is a schematic structural diagram of a traction mechanism according to an embodiment of the present invention;

FIG. 7 is a schematic structural view of a winding mechanism according to an embodiment of the present invention;

fig. 8 is an exploded view of the unwinding mechanism according to the embodiment of the present invention;

fig. 9 is a schematic view of an explosion mechanism of the winding mechanism according to the embodiment of the present invention;

FIG. 10 is a schematic view of the internal structure of a coating mechanism of the welder in accordance with the embodiment of the present invention;

fig. 11 is a schematic view of an internal structure of the wicking mechanism according to the embodiment of the utility model.

Reference numerals:

1. an unwinding device; 11. unwinding the frame; 111. a first sliding block; 112. a first glide bar; 113. a first rotating column; 12. a first unwinding group; 121. A first unwinding wheel; 122. a first drive pulley; 123. a first tension balance; 124. a first drive ring groove; 125. a second drive ring groove; 13. a second unwinding group; 131. a second unwinding wheel; 132. a second transmission wheel; 133. a second tension balance wheel; 134. a first regulating wheel; 135. a third drive ring groove; 136. a fourth drive ring groove; 2. a flux coating mechanism; 21. a supporting seat; 22. an infusion tank; 23. two pinch rollers; 24. a first guide wheel; 25. a second guide wheel; 26. an inclined surface; 3. a tin immersion mechanism; 31. a tin immersion frame; 32. a tin dipping pot; 33. a first regulating wheel; 34. a tin dipping wheel; 35. a second regulating wheel; 4. a traction mechanism; 41. a traction frame; 42. a traction wheel; 43. winding wheels; 44. a first traction groove; 45. a second traction groove; 5. a winding mechanism; 51. winding a support; 511. a second sliding block; 512. a second glide bar; 513. a second rotating cylinder; 52. a first winding group; 521. a third transmission wheel; 522. a first winding wheel; 523. a third tension balance; 524. a second regulating wheel; 525. a first conveying groove; 526. a second conveying guide groove; 527. a first sorting wheel; 53. a second winding group; 531. a fourth transmission wheel; 532. a second wind-up wheel; 533. a fourth tension balance; 534. a third conveying guide groove; 535. a fourth conveying guide groove; 536. a second sorting wheel; 6. And (4) sliding grooves.

Detailed Description

The utility model will be further described in detail with reference to the following examples, which are given in the accompanying drawings.

Referring to FIGS. 1 to 11, the present embodiment

A braided cable wicking machine comprises an unreeling device 1, a soldering flux coating mechanism 2, a wicking mechanism 3, a traction mechanism 4 and a reeling mechanism 5;

unwinding mechanism: comprises a unreeling frame 11, a first unreeling group 12 and a second unreeling group 13;

the first unwinding group 12 comprises a first unwinding wheel 121, a first driving wheel 122 and a first tension balance 123 which are all rotatably connected to the unwinding bracket, wherein the first driving wheel 122 is provided with a first driving annular groove 124 and a second driving annular groove 125, the first tension balance 123 is arranged below the first driving wheel 122, and a cable on the first unwinding wheel 121 firstly passes through the first driving annular groove 124, then bypasses the first tension balance 123 and then is wound out of the second driving annular groove 125;

the second unwinding group 13 comprises a second unwinding wheel 131, a second driving wheel 132, a second tension balance 133 and a first adjusting wheel 134 which are rotatably connected to the room support, the second driving wheel 132 is provided with a third driving annular groove 135 and a fourth driving annular groove 136, the second tension balance 133 is positioned below the second driving wheel 132, the cable wire on the second unwinding wheel 131 passes through the third driving annular groove 135, bypasses the second tension balance 133, then is wound out of the fourth driving annular groove 136, the cable wire wound out of the second driving annular groove is wound out of the first adjusting wheel 134, and the first adjusting wheel 134 and the second driving wheel 132 are concentrically arranged;

through the technical scheme, the first tension balance wheel 123 and the second tension balance wheel 133 can be arranged in the unreeling process, cables can be wound on the first driving wheel 122, the first tension balance wheel 123, the second driving wheel 132 and the second tension balance wheel 133 at the same time, the wound cables can be tensioned, and the cables of the first unreeling group 12 and the second unreeling group 13 can be unreeled in parallel through the first adjusting wheel 134, so that two sets of cables can be unreeled simultaneously by one set of equipment.

And the second driving ring groove 125 and the fourth driving ring groove 136 may be provided in one, or in plural, and in the case of plural arrangements, the cable is wound several times, so that the tensioning action of the first tension balance 123 and the second tension balance 133 is more stable, and in this embodiment, three second driving ring grooves 125 and four driving ring grooves 136 are provided.

The flux coating mechanism 2 comprises a supporting seat 21, an impregnant groove 22, two pressing wheels 23, two first guide wheels 24 and two second guide wheels 25, wherein the impregnant groove 22 is positioned on the supporting seat 21, the lower parts of the pressing wheels are positioned in the impregnant groove 22, the first guide wheels 24 and the second guide wheels 25 are rotatably connected to the supporting seat 21, the first guide wheels 24 and the second guide wheels 25 are respectively positioned at the front side and the rear side of the pressing wheels, cables wound out of the fourth annular transmission groove and cables wound out of the first adjusting wheels 134 are respectively wound out of the upper part of one of the first guide wheels 24, then are respectively wound out of the lower part of one of the pressing wheels, and then are respectively wound out of the upper part of one of the second guide wheels 25.

Through the technical scheme, after two cables unreeled in parallel by the unreeling mechanism enter the welding machine coating mechanism, the cables are contacted with the welding agent in the agent soaking groove 22 through the action of the pressing wheel, so that the welding agent is coated on the cables.

The tin immersion mechanism 3 comprises a tin immersion frame 31, a tin immersion pot 32, two first adjusting wheels 33, two tin immersion wheels 34 and two second adjusting wheels 35, wherein the tin immersion pot 32 is positioned on the tin immersion frame 31, the first adjusting wheels 33 and the second adjusting wheels 35 are rotatably connected to the tin immersion frame 31 and are respectively positioned on the front side and the rear side of the tin immersion pot 32, the tin immersion wheels 34 are rotatably connected to the tin immersion pot 32, two cables wound out of the second guide wheels 25 are respectively wound out from the upper side of one of the first adjusting wheels 33, and are respectively wound out from the lower side of one of the tin immersion wheels 34 and then are respectively wound out from the upper side of one of the second adjusting wheels 35.

Through the technical scheme, the cable enters the tin immersion pot 32 for tin immersion after the coating of the soldering flux is completed, and then the cable leaves the tin immersion mechanism 3 after the tin immersion is completed.

The traction mechanism 4 comprises a traction frame 41, two traction wheels 42 and two winding wheels 43, wherein the traction wheels 42 and the winding wheels 43 are both rotatably connected to the traction frame 41, the winding wheels are respectively arranged below one of the traction wheels 42, a first traction groove 44 and a second traction groove 45 are arranged on the traction wheels 42, two cables wound from the second adjusting wheel 35 respectively wind in from the upper part of one of the traction grooves, respectively wind around one of the winding wheels 43, respectively wind in from the second traction groove 45 in the traction wheel 42 wound in front and wind out from the second traction groove 45.

Through the technical scheme, one strand of cable is wound on the traction wheel 42 and the winding wheel, so that the cable can be adjusted, the traction effect is achieved, and the cable is output to the next procedure. In this embodiment three second traction grooves 45 are provided for winding the cable three times between the traction sheave 42 and the winding sheave 43.

The winding mechanism 5 comprises a winding bracket 51, a first winding group 52 and a second winding group 53, wherein the second winding group 53 is arranged in front of the first winding group 52 towards the winding direction;

the first winding set 52 comprises a third driving wheel 521, a first winding wheel 522, a third tension balance 523 and a second adjusting wheel 524 which are all rotatably connected to the winding support 51, the third tension balance 523 is arranged below the third driving wheel, a first guide groove 525 and a second guide groove 526 are arranged on the third driving wheel 521, one of the cables which is wound out of the second traction groove 45 winds in the first rotating groove, then winds in the third tension balance 523, then winds in the second guide groove 526, and winds out of the second guide groove 526 to enter the first winding wheel 522;

the second winding group 53 comprises a fourth driving wheel 531, a second winding wheel 532 and a fourth tension balance wheel 533 which are rotatably connected to the winding support 51, the fourth tension balance wheel 533 is positioned below the fourth driving wheel 531, the fourth driving wheel 531 is provided with a third transmission guide groove 534 and a fourth transmission guide groove 535, and another cable wound out of the second traction groove 45 winds from the third transmission guide groove 534, then winds around the fourth tension balance wheel 533, then winds into the fourth transmission guide groove 535, and winds out into the second winding wheel 532 in the fourth transmission;

through the technical scheme, the third driving wheel 521 and the third tension balance 523 are matched with the fourth driving wheel 531 and the fourth tension balance 533, so that the cable can be tensioned in the winding process, the winding process is more compact, one cable can be directly led into the other first winding group 52 through the arrangement of the second adjusting wheel 524, and synchronous winding of two parallel cables can be realized.

The number of the second guiding grooves 526 and the fourth guiding grooves 535 may be one, or may be plural, and in the case of plural arrangement, the cable is wound several times, so that the tightening action of the third tension balance 523 and the fourth tension balance 533 is more stable, and in this embodiment, three second guiding grooves 526 and fourth guiding grooves 535 are provided.

The first winding group 52 further includes a first arranging wheel 527, the first arranging wheel 527 is arranged between the third driving wheel 521 and the first winding wheel 522, and the cable wound out of the second driving groove passes through the first arranging wheel 527 and then is wound to the first winding wheel 522;

the second winding group 53 further includes a second arranging wheel 536, the second arranging wheel 536 is between the fourth driving wheel 531 and the second winding wheel 532, and the cable wound out from the fourth driving groove passes through the second arranging wheel 536 and is then wound to the second winding wheel 532.

Through the technical scheme, the cables are firstly wound to the first winding wheel 522 and the second winding wheel 532 and then pass through the first arranging wheel 527 and the second arranging wheel 536 through the arrangement of the first arranging wheel 527 and the second arranging wheel 536, and the final adjusting function can be only performed on the wound cables, so that the winding process is more stable.

The unreeling bracket comprises two first sliding blocks 111 and two first sliding strips 112, the first sliding blocks 111 are connected to the first sliding strips 112 in a sliding mode, a first rotating column 113 is arranged on the first sliding blocks 111, the first tension balance wheel 123 is connected to one of the first rotating columns 113 in a rotating mode, and the second tension balance wheel 133 is connected to the second rotating column 513 in a rotating mode;

the winding support 51 comprises two second sliding blocks 511 and two second sliding bars 512, the second sliding blocks 511 are connected to the second sliding bars 512 in a sliding mode, a second rotating column 513 is arranged on the second sliding bars 512, the third tension balance wheel 523 is connected to the second rotating column 513 in a rotating mode, and the fourth tension balance wheel 533 is connected to the other second rotating column 513 in a rotating mode.

According to the technical scheme, the first tension balance wheel 123 and the second tension balance wheel 133 can be rotatably connected to the first rotating column 113 through the matching of the first sliding block 111 and the first sliding bar 112, so that the first sliding block 111 can slide on the first sliding bar 112 under the action of gravity, and the first tension balance wheel 123 and the second tension balance wheel 133 can tighten the cable through gravity.

Similarly, the third tension balance wheel 523 and the fourth tension balance wheel 533 can be rotatably connected to the second rotating column 513 through the cooperation of the second sliding block 511 and the second sliding bar 512, so that the second sliding block 511 slides on the second sliding bar 512 under the action of gravity, and the third tension balance wheel 523 and the fourth tension balance wheel 533 can be tensioned to the cable through gravity.

The cross sections of the first sliding strip 112 and the second sliding strip 512 are trapezoidal, and the sliding grooves 6 with trapezoidal cross sections are arranged on the first sliding block 111 and the second sliding block 511.

Through the technical scheme, the first sliding strip 112, the second sliding strip 512 and the sliding groove 6 can be more stable and are not easy to separate in the matching process.

The infusion groove 22 takes the pressing wheel as the center, the two sides are provided with inclined planes 26, and the lowest position of the first adjusting wheel 33 and the second adjusting wheel 35 is positioned above the infusion groove 22.

Through above-mentioned technical scheme, through the setting of inclined plane 26, can be with the position of welding fluid water conservancy diversion to the pinch roller to first adjusting wheel 33 and second adjusting wheel 35 are the lowest to be located the immersion agent groove 22 top, can make and can get back to again in the immersion agent groove 22 when the welding fluid low fall through first adjustment and on the second adjusting wheel 35, are flowed to pinch roller department by inclined plane 26 again.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the utility model may occur to those skilled in the art without departing from the principle of the utility model, and are considered to be within the scope of the utility model.

Claims (8)

1. The utility model provides a braided cable wicking machine which characterized in that:

comprises an unreeling device (1), a soldering flux coating mechanism (2), a tin dipping mechanism (3), a traction mechanism (4) and a reeling mechanism (5);

unwinding mechanism: comprises a unreeling frame (11), a first unreeling group (12) and a second unreeling group (13);

the first unwinding group (12) comprises a first unwinding wheel (121), a first driving wheel (122) and a first tension balance wheel (123), wherein the first unwinding wheel (121), the first driving wheel (122) and the first tension balance wheel (123) are rotatably connected to the unwinding bracket, the first driving wheel (122) is provided with a first driving annular groove (124) and a second driving annular groove (125), the first tension balance wheel (123) is arranged below the first driving wheel (122), and a cable on the first unwinding wheel (121) firstly passes through the first driving annular groove (124) and then bypasses the first tension balance wheel (123) and then is wound out of the second driving annular groove (125);

the second unreeling group (13) comprises a second unreeling wheel (131), a second driving wheel (132), a second tension balance wheel (133) and a first adjusting wheel (134), the second unreeling wheel (131) is rotatably connected to the room support, a third transmission annular groove (135) and a fourth transmission annular groove (136) are formed in the second driving wheel (132), the second tension balance wheel (133) is located below the second driving wheel (132), a cable on the second unreeling wheel (131) passes through the third transmission annular groove (135), the second tension balance wheel (133) is bypassed, then the cable is wound out of the fourth transmission annular groove (136), the cable wound out of the second annular transmission groove is wound out of the first adjusting wheel (134), and the first adjusting wheel (134) and the second driving wheel (132) are concentrically arranged;

the cable wound out by the unwinding device (1) enters a winding mechanism (5) through a welding flux coating mechanism (2), a tin dipping mechanism (3) and a traction mechanism (4);

the winding mechanism (5) comprises a winding support (51), a first winding group (52) and a second winding group (53), and the second winding group (53) is arranged in front of the first winding group (52) towards the winding direction;

the first winding set (52) comprises a third driving wheel (521), a first winding wheel (522), a third tension balance wheel (523) and a second adjusting wheel (524), wherein the third driving wheel (521), the first winding wheel (522), the third tension balance wheel (523) and the second adjusting wheel are all rotatably connected to the winding support (51), the third tension balance wheel (523) is arranged below the third driving wheel, a first transmission groove (525) and a second transmission groove (526) are formed in the third driving wheel (521), one strand of cable wound out of the traction mechanism (4) winds in from the first rotating groove, then winds around the third tension balance wheel (523), then winds in the second transmission groove (526), and winds out of the second transmission groove (526) to enter the first winding wheel (522);

the second winding group (53) comprises a fourth driving wheel (531), a second winding wheel (532) and a fourth tension balance wheel (533) which are rotatably connected to the winding support (51), the fourth tension balance wheel (533) is located below the fourth driving wheel (531), a third transmission guide groove (534) and a fourth transmission guide groove (535) are formed in the fourth driving wheel (531), another cable wound out of the traction mechanism (4) winds from the third transmission guide groove (534), then winds around the fourth tension balance wheel (533), then winds into the fourth transmission guide groove (535), and is charged into the fourth transmission to wind out to enter the second winding wheel (532).

2. The braided cable wicking machine of claim 1, wherein:

the flux coating mechanism (2) comprises a supporting seat (21), an impregnant groove (22), two pressing wheels (23), two first guide wheels (24) and two second guide wheels (25), the impregnant groove (22) is located on the supporting seat (21), the lower portions of the pressing wheels are located in the impregnant groove (22), the first guide wheels (24) and the second guide wheels (25) are connected to the supporting seat (21) in a rotating mode, the first guide wheels (24) and the second guide wheels (25) are located on the front side and the rear side of the pressing wheels respectively, cables wound out of a fourth annular transmission groove and cables wound out of a first adjusting wheel (134) are wound out of the upper portion of one of the first guide wheels (24) respectively and are wound out of the lower portion of one of the pressing wheels respectively, and then are wound out of the upper portion of one of the second guide wheels (25) respectively.

3. The braided cable wicking machine of claim 2, wherein:

the tin immersion mechanism (3) comprises a tin immersion frame (31), a tin immersion pot (32), two first adjusting wheels (33), two tin immersion wheels (34) and two second adjusting wheels (35), wherein the tin immersion pot (32) is positioned on the tin immersion frame (31), the first adjusting wheels (33) and the second adjusting wheels (35) are rotatably connected to the tin immersion frame (31) and are respectively positioned on the front side and the rear side of the tin immersion pot (32), the tin immersion wheels (34) are rotatably connected to the tin immersion pot (32), two cables wound out of the second guide wheel (25) are respectively wound out from the upper side of one of the first adjusting wheels (33), and then are respectively wound out from the lower side of one of the tin immersion wheels (34), and then are respectively wound out from the upper side of one of the second adjusting wheels (35).

4. The braided cable wicking machine of claim 3, wherein:

traction mechanism (4) are including traction frame (41), two traction wheels (42), two around wheel (43), traction wheel (42) and around wheel (43) all rotate to be connected on traction frame (41), around the wheel respectively in one of them traction wheel (42) below, be provided with first traction groove (44) and second traction groove (45) on traction wheel (42), follow the two strands of cables that second adjusting wheel (35) were walked around into respectively from one of them traction groove top, and one of them is walked around respectively around wheel (43) again, after respectively walk around before second traction groove (45) in the traction wheel (42) of going around to from second traction groove (45) in around.

5. The braided cable wicking machine of claim 4, wherein:

the first winding group (52) further comprises a first arranging wheel (527), the first arranging wheel (527) is arranged between the third driving wheel (521) and the first winding wheel (522), and the cable wound out of the second driving groove passes through the first arranging wheel (527) and then is wound to the first winding wheel (522);

the second winding group (53) further comprises a second arranging wheel (536), the second arranging wheel (536) is arranged between the fourth driving wheel (531) and the second winding wheel (532), and the cables wound out of the fourth driving groove pass through the second arranging wheel (536) and then are wound to the second winding wheel (532).

6. The braided cable wicking machine of claim 5, wherein:

the unreeling support comprises two first sliding blocks (111) and two first sliding strips (112), the first sliding blocks (111) are connected to the first sliding strips (112) in a sliding mode, a first rotating column (113) is arranged on each first sliding block (111), the first tension balance wheel (123) is connected to one first rotating column (113) in a rotating mode, and the second tension balance wheel (133) is connected to the second rotating column (513) in a rotating mode;

the winding support (51) comprises two second sliding blocks (511) and two second sliding strips (512), the second sliding blocks (511) are connected to the second sliding strips (512) in a sliding mode, a second rotating column (513) is arranged on the second sliding strips (512), the third tension balance wheel (523) is connected to the second rotating column (513) in a rotating mode, and the fourth tension balance wheel (533) is connected to the other second rotating column (513) in a rotating mode.

7. The braided cable wicking machine of claim 6, wherein:

the cross sections of the first sliding strip (112) and the second sliding strip (512) are trapezoidal, and sliding grooves (6) with trapezoidal cross sections are formed in the first sliding block (111) and the second sliding block (511).

8. The braided cable wicking machine of claim 7, wherein:

the infusion groove (22) takes the pressing wheel as the center, inclined planes (26) are arranged on two sides of the infusion groove, and the lowest position of the first adjusting wheel (33) and the second adjusting wheel (35) is positioned above the infusion groove (22).

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